The reasonableness approach of the South African Constitutional Court - making the constitutional right of access to housing "real" or effectively meaningless?

The South African Constitution explicitly guarantees the right of access to housing (section 26 of the Constitution). To consider whether the state has fulfilled its positive obligations to take appropriate steps to realise the right of access to housing within its available resources, the Constitutional Court – based on the text of the provision 26(2) of the Constitution – uses the test of reasonableness. Contrary to the minimum core concept, which was developed through the General Comments of the United Nations Committee on Economic, Social and Cultural Rights and which is used to measure state actions in regard of the right to housing under Article 11 para 1 of the ICESCR, the reasonableness approach shifts the emphasis from the reasonableness of the solution to the reasonableness of the steps taken, moving away from a substantive right towards administrative oversight, which makes – so the assumption goes – the constitutional right of access to housing effectively meaningless. However, in this dissertation it is argued that it is not the reasonableness approach per se which hinders the implementation of the right of access to housing but rather the choice of remedy and the lack of (individual) access to the Court. In doing so, this study will show that the Court by using the reasonableness approach is acting in accordance with the wording and the transformative character of the South African Constitution and its own institutional role within the constitutional framework based on the separation of powers. Subsequently the study demonstrates that the effectiveness of the right of access to housing depends on the remedy granted by the Court and the possibility of access to the Court rather than the approach reverted to by the Court. Against this backdrop, the dissertation scrutinises what can be done to expand access to justice for claims flowing from the right of access to housing and thus to facilitate the right

Myth-busting the provider-user relationship for digital sequence information.

[EN] BACKGROUND: The United Nations Convention on Biological Diversity (CBD) formally recognized the sovereign rights of nations over their biological diversity. Implicit within the treaty is the idea that mega-biodiverse countries will provide genetic resources and grant access to them and scientists in high-income countries will use these resources and share back benefits. However, little research has been conducted on how this framework is reflected in real-life scientific practice. RESULT: Currently, parties to the CBD are debating whether digital sequence information (DSI) should be regulated under a new benefit-sharing framework. At this critical time point in the upcoming international negotiations, we test the fundamental hypothesis of provision and use of DSI by looking at the global patterns of access and use in scientific publications. CONCLUSION: Our data reject the provider-user relationship and suggest a far more complex information flow for DSI. Therefore, any new policy decisions on DSI should be aware of the high level of use of DSI across low- and middle-income countries and seek to preserve open access to this crucial common good.This publication was made possible by the research project WiLDSI (Wissenschaftliche Lösungsansätze für Digitale Sequenzinformation) funded by the German Federal Ministry of Education and Research (BMBF) under funding code 031B0862

MO030IDENTIFICATION OF REGULATED MRNAS AND MIRNAS IN GLOMERULI ISOLATED FROM AN FSGS-LIKE ZEBRAFISH MODEL

Abstract Background and Aims The zebrafish (Danio rerio) is a powerful animal model to study glomerular morphology and the function of the permselectivity of the glomerular filtration barrier. Since zebrafish larvae develop quickly and can be bred to become transparent, in vivo observation of these animals is possible. At 48 hours post fertilization, zebrafish larvae develop a single glomerulus which is attached to a pair of tubules. Like in mammals, the glomerular filtration barrier consists of a fenestrated endothelium, the glomerular basement membrane and interdigitating podocyte foot processes bridged by a slit diaphragm. By using genetically modified zebrafish strains with fluorescently labeled podocytes, it is possible to study alterations of the glomerulus during the development of renal disease like focal segmental glomerulosclerosis (FSGS) directly in vivo. FSGS is characterized by podocyte loss, the effacement of their foot processes as well as scarring of the glomerulus. To study FSGS in zebrafish larvae, we induced podocyte detachment by the use of a zebrafish strain expressing the enzyme nitroreductase converting metronidazole into a toxic substance specifically in podocytes. The aim of our study was to collect glomeruli for the identification of mRNAs as well as miRNAs by RNA_Seq that are up- and down-regulated in the glomeruli of this FSGS-like disease model. Method The transgenic zebrafish strain Cherry (Tg(nphs2:GAL4); Tg(UAS:Eco.nfsB-mCherry); mitfaw2/w2; mpv17a9/a9) which expresses the prokaryotic enzyme nitroreductase (NTR) fused to mCherry, a red fluorescent protein, under the control of the podocyte-specific podocin (nphs2) promoter in a transparent zebrafish strain, was utilized. After addition of metronidazole (MTZ) into the tank water, MTZ is converted into a cytotoxin by NTR leading to dose-dependent apoptosis exclusively in podocytes. Cherry larvae were treated at 4 days post fertilization (dpf) for 48 h with 80 µM MTZ. MTZ-treated and control larvae were homogenized at 6 dpf. The cell suspension was diluted, and red-fluorescent glomeruli were collected using a micropipette and a microscope. Total RNA was isolated, and integrity was checked by a Bioanalyzer. Libraries were generated with a MACE kit and True Quant small RNA seq kit by GenXPro. Constructs were amplified by PCR and sequenced on an Illumina Hiseq 2000. Normalization and statistical analysis for differential gene expression were done using DESeq2. Results Zebrafish larvae showed severe whole-body edema, proteinuria, loss of podocytes and an increased mortality rate after MTZ-treatment. The glomerular histology resembled mammalian FSGS. We found that only the RNA of manually collected glomeruli had an excellent quality. Using RNA_Seq, we identified a total of 16941 genes. DESeq2 analysis showed 494 up-regulated and 473 down-regulated genes. Gene ontology (GO) enrichment analysis of up-regulated genes revealed a total of 167 that are significantly enriched in GO terms (e.g. metabolic processes, immune response and ion transport). Down-regulated genes were enriched in 14 GO terms and most of them are linked to normal glomerular function and the slit diaphragm. DESeq2 analysis identified 200 miRNAs of 777 small RNAs. Some of these miRNA are already described to be regulated in different glomerular diseases like FSGS, lupus nephritis, IgA nephropathy and diabetic nephropathy. Conclusion We analyzed isolated glomeruli from transgenic zebrafish larvae that developed a FSGS-like disease. By sequencing, we have found mRNAs and miRNAs that were significantly regulated after the onset of disease. Detailed knowledge of these mRNAs and miRNA-based gene regulation will help to uncover the pathomechanism as well as to develop therapeutics for the treatment of FSGS

Magnesium Anode Protection by an Organic Artificial Solid Electrolyte Interphase for Magnesium-Sulfur Batteries

In the search for post-lithium battery systems, magnesium–sulfur batteries have attracted research attention in recent years due to their high potential energy density, raw material abundance, and low cost. Despite significant progress, the system still lacks cycling stability mainly associated with the ongoing parasitic reduction of sulfur at the anode surface, resulting in the loss of active materials and passivating surface layer formation on the anode. In addition to sulfur retention approaches on the cathode side, the protection of the reductive anode surface by an artificial solid electrolyte interphase (SEI) represents a promising approach, which contrarily does not impede the sulfur cathode kinetics. In this study, an organic coating approach based on ionomers and polymers is pursued to combine the desired properties of mechanical flexibility and high ionic conductivity while enabling a facile and energy-efficient preparation. Despite exhibiting higher polarization overpotentials in Mg–Mg cells, the charge overpotential in Mg–S cells was decreased by the coated anodes with the initial Coulombic efficiency being significantly increased. Consequently, the discharge capacity after 300 cycles applying an Aquivion/PVDF-coated Mg anode was twice that of a pristine Mg anode, indicating effective polysulfide repulsion from the Mg surface by the artificial SEI. This was backed by operando imaging during long-term OCV revealing a non-colored separator, i.e. mitigated self-discharge. While SEM, AFM, IR and XPS were applied to gain further insights into the surface morphology and composition, scalable coating techniques were investigated in addition to ensure practical relevance. Remarkably therein, the Mg anode preparation and all surface coatings were prepared under ambient conditions, which facilitates future electrode and cell assembly. Overall, this study highlights the important role of Mg anode coatings to improve the electrochemical performance of magnesium–sulfur batteries

Effect of endurance versus resistance training on quadriceps muscle dysfunction in COPD:a pilot study

INTRODUCTION: Exercise is an important countermeasure to limb muscle dysfunction in COPD. The two major training modalities in COPD rehabilitation, endurance training (ET) and resistance training (RT), may both be efficient in improving muscle strength, exercise capacity, and health-related quality of life, but the effects on quadriceps muscle characteristics have not been thoroughly described. METHODS: Thirty COPD patients (forced expiratory volume in 1 second: 56% of predicted, standard deviation [SD] 14) were randomized to 8 weeks of ET or RT. Vastus lateralis muscle biopsies were obtained before and after the training intervention to assess muscle morphology and metabolic and angiogenic factors. Symptom burden, exercise capacity (6-minute walking and cycle ergometer tests), and vascular function were also assessed. RESULTS: Both training modalities improved symptom burden and exercise capacity with no difference between the two groups. The mean (SD) proportion of glycolytic type IIa muscle fibers was reduced after ET (from 48% [SD 11] to 42% [SD 10], P<0.05), whereas there was no significant change in muscle fiber distribution with RT. There was no effect of either training modality on muscle capillarization, angiogenic factors, or vascular function. After ET the muscle protein content of phosphofructokinase was reduced (P<0.05) and the citrate synthase content tended increase (P=0.08) but no change was observed after RT. CONCLUSION: Although both ET and RT improve symptoms and exercise capacity, ET induces a more oxidative quadriceps muscle phenotype, counteracting muscle dysfunction in COPD

Perspectives for systems biology in the management of tuberculosis

Standardised management of tuberculosis may soon be replaced by individualised, precision medicine-guided therapies informed with knowledge provided by the field of systems biology. Systems biology is a rapidly expanding field of computational and mathematical analysis and modelling of complex biological systems that can provide insights into mechanisms underlying tuberculosis, identify novel biomarkers, and help to optimise prevention, diagnosis and treatment of disease. These advances are critically important in the context of the evolving epidemic of drug-resistant tuberculosis. Here, we review the available evidence on the role of systems biology approaches - human and mycobacterial genomics and transcriptomics, proteomics, lipidomics/metabolomics, immunophenotyping, systems pharmacology and gut microbiomes - in the management of tuberculosis including prediction of risk for disease progression, severity of mycobacterial virulence and drug resistance, adverse events, comorbidities, response to therapy and treatment outcomes. Application of the Grading of Recommendations, Assessment, Development and Evaluation (GRADE) approach demonstrated that at present most of the studies provide "very low" certainty of evidence for answering clinically relevant questions. Further studies in large prospective cohorts of patients, including randomised clinical trials, are necessary to assess the applicability of the findings in tuberculosis prevention and more efficient clinical management of patients.Publisher PDFPeer reviewe

Kvasir-Capsule, a video capsule endoscopy dataset

Artificial intelligence (AI) is predicted to have profound effects on the future of video capsule endoscopy (VCE) technology. The potential lies in improving anomaly detection while reducing manual labour. Existing work demonstrates the promising benefits of AI-based computer-assisted diagnosis systems for VCE. They also show great potential for improvements to achieve even better results. Also, medical data is often sparse and unavailable to the research community, and qualified medical personnel rarely have time for the tedious labelling work. We present Kvasir-Capsule, a large VCE dataset collected from examinations at a Norwegian Hospital. Kvasir-Capsule consists of 117 videos which can be used to extract a total of 4,741,504 image frames. We have labelled and medically verified 47,238 frames with a bounding box around findings from 14 different classes. In addition to these labelled images, there are 4,694,266 unlabelled frames included in the dataset. The Kvasir-Capsule dataset can play a valuable role in developing better algorithms in order to reach true potential of VCE technology